Title :
Pattern Formation in Electrical Exploding of Thin Metal Films
Author :
Emelyanov, O.A. ; Belko, V.O.
Author_Institution :
Dept. of Electr. Insulation, St. Petersburg State Polytech. Univ., St. Petersburg, Russia
Abstract :
We present the experimental results of the nanometer Zn films electrical explosion in the air. The film destruction is accompanied with the stratification; the strata are formed in the transverse direction to the applied electric field. The initial strata growth can be explained by the electro-thermal instability development. The strata propagation velocity reaches 50 km/s and depends on the current. The pattern is formed during ~60 ns and each stratum´s voltage settles at the constant level limited by arc discharges. We found that strata fractal dimension D=1.55±0.02 for all experiments, which means that the patterns are determined by a certain universal mechanism.
Keywords :
capacitors; discharges (electric); exploding wires; metallic thin films; pattern formation; zinc; applied electric field; arc discharges; constant level; electrical exploding; electrical explosion; electrothermal instability development; film destruction; nanometer Zn films; pattern formation; strata formation; strata fractal dimension; strata propagation velocity; stratification; thin metal films; time 60 ns; velocity 50 km/s; Capacitors; Conductors; Discharges (electric); Explosions; Metals; Resistance; Wires; Arc discharge; exploding film; pattern formation; pulsed power capacitors; zinc-metalized film;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2013.2251008
